Contact searching method and apparatus, and applied mobile terminal

ABSTRACT

The present invention provides a contact searching method, including: receiving first input of a user; selecting a first grapheme from a first graphemes sequence according to the first input, the first graphemes sequence being displayed on a display; where the first graphemes sequence is associated with an initial unit of characters in multiple contact labels; receiving second input of the user; selecting a second grapheme from a second graphemes sequence according to the second input, the second graphemes sequence being displayed on the display, and the second graphemes sequence being associated with a secondary unit of characters in the multiple contact labels; and searching for and displaying a contact label on the display, where contact label is matched with the first grapheme and the second grapheme.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.13/604,020, filed on Sep. 5, 2012, which is a continuation ofInternational Application No. PCT/CN2011/084877, filed on Dec. 29, 2011.The afore-mentioned patent applications are hereby incorporated byreference in their entireties.

FIELD OF THE INVENTION

The present invention relates to the field of contact informationmanagement and searching, and in particular, to a contact searchingmethod and apparatus, and an applied mobile terminal.

BACKGROUND OF THE INVENTION

With the development of intelligent mobile terminals and the popularityof social communication networks, the social communication scope of anintelligent mobile terminal user is greatly expanded. Therefore, themobile terminal user has lots of contact information to manage. Thecurrent contact management manner has some obvious disadvantages inmanaging large amounts of contact information. For example, a contact isdifficult to search for or find because the contact is generallysearched for by using the first letter of an alphabetic identifier ofthe contact, that is, inputting the first letter of the contact in acontact search box. Because the contact information is huge, a largenumber of contacts having the same first letter may be searched out orfound by using the first letter. These contacts having the same firstletter are all displayed. In this case, the user is only capable offinding needed contact information by browsing or scrolling pages. Thisprocess is time-consuming, and does not satisfy a user's expectation forquickly searching for and locating a contact. In addition, userexperience on the intelligent mobile terminal is reduced.

SUMMARY OF THE INVENTION

Embodiments of the present invention provide a contact searching methodand apparatus, an applied mobile terminal, and a storage medium thatstores an executable instruction of performing the contact searchingmethod, therewith implementing quick contact searching and locating.

A contact searching method includes:

receiving first input of a user;

selecting a first grapheme from a first graphemes sequence according tothe first input, the first graphemes sequence being displayed on adisplay, where the first graphemes sequence is associated with aninitial unit of characters in multiple contact labels;

receiving second input of the user;

selecting a second grapheme from a second graphemes sequence accordingto the second input, the second graphemes sequence being displayed onthe display, and the second graphemes sequence being associated with asecondary unit of characters in the multiple contact labels; where eachof the contact labels includes at least two units of characters, and theunit of characters is formed or represented by at least one grapheme;and

searching for and displaying a contact label on the display, wherecontact label is matched with the first grapheme and the secondgrapheme.

A contact searching apparatus includes a displaying module, an inputtingmodule, a processing module, and a searching module, where:

the displaying module is configured to display a first graphemessequence and a second graphemes sequence;

the inputting module is configured to receive first input of a user andsecond input of a user;

the processing module is configured to select a first grapheme from thefirst graphemes sequence according to the first input and select asecond grapheme from the second graphemes sequence according to thesecond input, where the first graphemes sequence is associated with aninitial unit of characters in multiple contact labels, the secondgraphemes sequence is associated with a secondary unit of characters inthe multiple contact labels, each of the contact labels includes atleast two units of characters, and the unit of characters is formed orrepresented by at least one grapheme;

the searching module is configured to search the contact informationincluding the contact labels for a contact label associated with thefirst grapheme and the second grapheme; and

the displaying module is further configured to display the contact labelthat is searched out by the searching module and is associated with thefirst grapheme and the second grapheme and.

A mobile terminal includes a memory, a display, and a processingapparatus, where:

the memory stores contact information, where the contact informationincludes multiple contact labels, each of the contact labels includes atleast two units of characters, and a unit character is formed orrepresented by at least one grapheme;

the display is configured to generate a contact sequence according tothe contact labels in the contact information, and generate a firstgraphemes sequence and a second graphemes sequence around the positionof the contact sequence according to graphemes in the contactinformation; where the first graphemes sequence is associated with thefirst unit character in each of the multiple contact labels, and thesecond graphemes sequence is associated with the second unit characterin each of the multiple contact labels;

the processing apparatus is configured to make a response to first inputof a user and select a first grapheme from the first graphemes sequence,make a response to second input of the user and select a second graphemefrom the second graphemes sequence, and search the contact informationstored in the memory, according to the selected first grapheme andsecond grapheme, for a contact label associated with the first graphemeand the second grapheme, and send a search result to the display; and

the display is further configured to generate, according to the searchresult of the processor apparatus, a contact sequence including contactinformation of the contact label matched with the first grapheme and thesecond grapheme.

A readable storage medium stores an executable instruction, where theexecutable instruction is executed to perform the following steps:

receiving first input of a user;

selecting a first grapheme from a first graphemes sequence according tothe first input, the first graphemes sequence being displayed on adisplay, where the first graphemes sequence is associated with aninitial unit of characters in multiple contact labels;

receiving second input of the user;

selecting a second grapheme from a second graphemes sequence accordingto the second input, the second graphemes sequence being displayed onthe display, and the second graphemes sequence being associated with asecondary unit of characters in the multiple contact labels; where eachof the contact labels includes at least two units of characters, and aunit character is formed or represented by at least one grapheme; and

searching for and displaying a contact label on the display, where thecontact label is matched with the first grapheme and the secondgrapheme.

According to the contact searching method and apparatus, the appliedmobile terminal and readable storage medium provided in the embodimentsof the present invention, the first graphemes sequence and the secondgraphemes sequence are displayed on the display so that the user iscapable of quickly searching out a desired contact by using a combinedsearching manner, thus improving contact search efficiency and userexperience on the mobile terminal.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of a mobile terminal 100 according to anembodiment of the present invention;

FIG. 2 is a system architecture block diagram of the mobile terminal 100in FIG. 1;

FIG. 3 is a schematic diagram of a contact searching interface generatedby the mobile terminal 100 in FIG. 1;

FIGS. 4, 4 a, 4 b, 5, and 5 a are flowchart block diagrams of multiplecontact searching methods according to embodiments of the presentinvention; and

FIGS. 6, 6 a, 6 b, and 6 c are schematic diagrams of multiple contactsearching apparatuses according to embodiments of the present invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Referring to FIG. 1, a block diagram of a mobile terminal 100 forbearing and implementing the present invention is illustrated. Themobile terminal may be a data processing device, for example, a tablet,a personal digital assistant, a cellular phone, a network appliance, acamera, a smart phone, an enhanced general packet radio service (EGPRS)mobile phone, a network base station, a media player, a GPS device, anemail device, a game control center, an electronic frame, and a datacard, or any two or multiple of these data processing devices or ofother data processing devices.

The mobile terminal 100 includes a display 102. The display 102 may bepreferably a touch-sensitive display, for example, a liquid crystaldisplay (LCD), a light emitting diode (LED) display, a carbon nanotubedisplay, or other displays. The display 102 may be a device that issensitive to user's touch and/or contact and integrates displaying andtouch responding. The display 102 may include a multipointtouch-sensitive response function, where the multipoint touch-sensitiveresponse refers to that the display 102 may simultaneously processmultiple touch points, including processing data related to thepressure, area and/or position of each touch point. Such a multipointtouch function facilitates interaction between gestures or actions ofmultiple fingers and the mobile terminal 100. The mobile terminal 100may display one or multiple graphical user interfaces on the display 102to provide a user with various accessible system objects and sendinformation to the user. The graphical user interface may include one ormultiple selectable objects, that is, display objects. A display objectprovides, by using a graphical icon, an entrance of initiating afunction for the user. A selectable object includes a device function,an application, a window, a file, an alarm, an event, or otheridentifiable system objects.

The mobile terminal 100 may implement functions of multiple devices, forexample, a phone device, an email device, a network data communicationdevice, a WiFi base station device, and a media processing device. Insome implementation manners, a specific display object may be displayedon a menu of a user interface. In some other implementation manners, adevice function may be accessed by using a top-layer graphical userinterface, for example, calling a function corresponding to a device byusing a touch manner.

In some scenarios, after a device function of the mobile terminal 100 iscalled, the graphical user interface of the mobile terminal 100 ischanged, or enlarged, or replaced by another graphical user interface oruser interface component, so as to assist the user to access and operatea specific function related to a corresponding device function. Forexample, in response to user's touch on a phone object, the graphicaluser interface of the display 102 may present display objects related tovarious phone functions. Similarly, touching an email object may enablethe graphical user interface to present display objects related tovarious email functions; touching a network object may enable thegraphical user interface to present display objects related to a Webbrowsing function; and touching a media player object may enable thegraphical user interface to present display objects related to variousmedia processing function.

In some other scenarios, the environment or status of the top-layergraphical user interface shown in FIG. 1 may be recovered by pressing abutton 120 located around the bottom of the mobile terminal 100. In someother scenarios, each corresponding device function may have acorresponding “main interface” display object displayed on the display102, and in addition, the environment of the graphical user interfaceshown in FIG. 1 may be recovered by pressing the “main interface”display object. In some other scenarios, the top-layer graphical userinterface of the mobile terminal 100 may include another display object106, for example, a short message service (SMS) object, a calendarobject, a photo object, a camera object, a calculator object, a stockobject, a weather object, a map object, a note object, a clock object,an address book object, and a setting object. Touching the map object,for example, may call a map drawing function, a location-based serviceenvironment, and a support function; similarly, selecting any displayobject 106 may call the corresponding object environment and function.Referring to FIG. 2, system architecture 200 of the mobile terminal 100shown in FIG. 1 is illustrated. The system architecture 200 of themobile terminal 100 may include a memory interface 202, one or multipledata processors, an image processor and/or a central processing unit204, and a peripheral interface 206. The memory interface 202, one ormultiple processors 204 and/or peripheral interface 206 may be separatecomponents or may be integrated into one or multiple integratedcircuits. Each component in the system architecture 200 may be connectedby using one or multiple communication buses or signal cables. A sensor,a device, and a subsystem may be connected to the peripheral interface206 to assist the implementation of various functions of the mobileterminal. For example, a motion sensor 210, an optical sensor 212, and aposition sensor 214 may be connected to the peripheral interface 206 toassist the implementation of a motion sensing function, an environmentillumination sensing function, and a position sensing function of themobile terminal, or may collaborate with each other to implement aspecific function. Another auxiliary sensor 216, for example, apositioning system (for example, a GPS receiver), a temperature sensor,a biological feature measurement sensor, an air pressure sensor, and analtitude sensor, may also be connected to the peripheral interface 206to assist the implementation of various related functions of the mobileterminal. The system architecture 200 of the mobile terminal 100 alsoincludes a camera subsystem 220, where the camera subsystem 220 uses theoptical sensor 212, for example, a charge coupling device (CCD) or acomplementary metal oxide semiconductor (CMOS) optical sensor, to assistthe implementation of the corresponding image capture function of thecamera subsystem. The system architecture 200 of the mobile terminal 100may also include a radio communication subsystem 224, where the radiocommunication subsystem 224 is configured to enable the mobile terminalto have a radio communication function and the radio communicationsubsystem 224 may include a radio frequency receiver and transmitterand/or an optical (for example, infrared) receiver and transmitter. Thesystem architecture of the mobile terminal 100 further includes an audiosubsystem 226, where the audio subsystem 226 is configured to implementa voice pickup or audio signal playing function of the mobile terminal.The audio subsystem 226 includes a speaker 228 and a microphone 230 toassist the implementation of the voice pickup function and the audiosignal playing function. The various foregoing components are connectedto the processor 204 through the peripheral interface 206, forming thebasic communication and extension function architecture of the mobileterminal 100 of the present invention, where the basic communication andextension function architecture is a basic unit for implementingfunctions such as the communication function and photo pickup functionof the mobile terminal 100. The system architecture of the mobileterminal 100 further includes an I/O subsystem 240, where the I/Osubsystem 240 is configured to enable the mobile terminal 100 toimplement input output control. The I/O subsystem 240 may include ascreen controller 242 and/or other (one or multiple) input controllers244. The screen controller 242 is connected to a display 246 to controlcontent displayed on the display 246. When the screen is a touch screen,a corresponding touch screen controller 242 is a touch screencontroller. The touch screen and the corresponding touch screencontroller may use any one of multiple touch-sensitive technologies todetect touch and moving or interruption of the touch. The touchtechnologies include but are not limited to a capacitive technology, aresistive technology, an infrared technology, and a surface sound wavetechnology, and other approaching sensing arrays or other components fordetermining one or multiple contact points by using the touch screen.The input controller 244 may be connected to another input/controldevice 248, where another input/control device 248 may be one ormultiple buttons, rocker switches, thumb rotation switches, infraredports, USB ports and/or point selection devices such as iron pens. Inaddition, the display 246 may also be configured to present a virtualbutton and/or keyboard to implement input control on the mobileterminal. Components such as the processing apparatus 249, the processor204, the input controller 244, and the input/control device 248 form abasic processing apparatus 249 of the mobile terminal 100 forimplementing contact searching. The components of the basic processingapparatus 249 collaborate with each other to implement contactsearching. The memory interface 202 in the system architecture 200 ofthe mobile terminal 100 may be connected to a memory 250. The memory 250may be a high speed random access memory and/or a non-volatile memory,for example, one or multiple disk storage devices, one or multipleoptical storage devices and/or flash memories. The memory may store anoperating system 252, where the operating system 252 may includeinstructions for processing basic system services and performing tasksof indispensable hardware. The memory 250 may also store multipleexecutable programs, where an executable program may be a music playingprogram 254, a network browsing program 256, an image processing program258, a voice communication program 260, a short message communicationprogram 262, a file indexing/searching program 264, a graphical userinterface generating program 266, or other programs having variousfunctions. The memory interface 202 and the memory 250 form a dataaccess apparatus of the mobile terminal 100. By using the data accessapparatus, the mobile terminal 100 may access various data and obtainvarious programs. The foregoing describes an exemplary mobile terminal100 using the contact searching method and apparatus in the presentinvention and the universal system architecture of the mobile terminal100. Based on the basic system architecture of the mobile terminal 100,the following describes in detail specific embodiments of the mobileterminal 100 using the contact searching method and apparatus providedin the present invention.

FIG. 3 illustrates an interaction interface 310 of the mobile terminal100, in which the interaction interface 310 is used to search forcontact information, according an embodiment of the present invention.Generation of the interaction interface 310 and interaction between themobile terminal 100 and a user that is implemented by using theinteraction interface 310 involve at least the displays 102 and 246, thememory interface 202, the memory 250 in the basic architecture of themobile terminal 100, and the processing apparatus 249 formed bycomponents such as the processing apparatus 249, the screen controller242, the input controller 244, and the input/control device 248, thatis, the part enclosed by the broken lines in FIG. 1. In other words, thedisplay 102, the processing apparatus 249, the memory interface, and thememory 250 are basic components for generating the interaction interface310 and implementing the interaction between the mobile terminal 100 andthe user by using the interaction interface 310. It may be understoodthat necessary components are not limited to hardware or software, butmay be functional units that are known to those skilled in the art andcapable of implementing the corresponding functions of each foregoingcomponent, including a hardware implementation manner, a softwareimplementation manner, or an implementation manner combining hardwareand software. The following directly introduces and describes how thedisplay 102, the processing apparatus 249, the memory interface 202, andthe memory 250 implement the technical solutions of contact informationsearching provided in the present invention. It may be understood thattechnical details, such as necessary data interaction between the abovecomponents, calling of related software, and use of some auxiliarycomponents, which are known for those skilled in the art, are notdetailed here in detail. In addition, the memory interface 202 is merelyconfigured to connect the processing apparatus 249 and the memory 250 toperform data transmission. It should be noted that during a data accessprocess between the processing apparatus 249 and the memory 250 in thefollowing description, the function of the memory interface 202 involvedin the data access process is not to be described again.

The mobile terminal 100 includes the display 102 and the memory 250. Thedisplay 102, the processing apparatus 249, and the memory 250 areinterconnected by using data buses to implement data exchange betweenthe preceding components.

The memory 250 stores contact information, where the contact informationincludes multiple contact labels, each of the contact labels includes atleast two units of characters, and a unit character is formed orrepresented by at least one grapheme.

Generally, for searching out a contact quickly, the memory 250 of themobile terminal 100 stores the contact information, where the contactinformation generally has fixed information content and the informationcontent generally includes: a contact label, a contact address, acontact phone number, a contact email address, a contact fax, a contactphoto, a contact gender and so on. The information content is generallystored in the memory 250 in a certain format. Generally, the contactlabel is an identifiable identifier that is most commonly used for theuser to differentiate contacts and search for a contact, for example,the name or denomination of a contact, but not limited to the name ordenomination of the contact. In some application scenarios, anotherexpression manner may also be used as the contact label, for example, apictogram, a text, or a similar expression manner. In this embodiment ofthe present invention, the contact label includes at least two units ofcharacters. Setting at least two units of characters in the contactlabel aims to ensure that the contact label satisfies a common settingmanner of the name or domination of the contact. To be specific, thename of the contact generally includes two parts, that is, a given nameand a family name. The unit of characters is an identifiable semanticunit formed or represented by at least one grapheme, or formed orrepresented, in a certain rule, by multiple graphemes. The wording“form” refers to that the unit of characters is directly formed bycombining the graphemes. For example, Jone is a unit of character, wherethe letters J, O, N, and E are the graphemes directly forming the wordJone; or the Chinese character “

” is formed of eight strokes of left-falling (

), break (

), horizontal (

), vertical (|), horizontal (

), vertical (|), break (

), and horizontal (

). In this case, the left-falling (

), break (

), horizontal (

), vertical (|), horizontal (

), vertical (|), break (

), and horizontal (

) strokes are graphemes of the “

”. The wording “represent” refers to that the unit character is notdirectly formed by the graphemes but indirectly indicated by thegraphemes. For example, a Chinese character may be represented by Pinyinor strokes corresponding to a Chinese character. For example, the Pinyincorresponding to the Chinese character “

” is “zhou”, where Z, H, O, and U are letters forming the Pinyin “zhou”,that is, the graphemes. Specifically, when the unit character is aChinese character, correspondingly, the graphemes are a combination ofPinyin letters of the Chinese character; or when the unit character is aalphabetic writing word, correspondingly, the grapheme is the firstletter in letters forming the word, where the word refers to a minimumsemantic unit that has a definite meaning and is formed by one ormultiple letters through a letter word formation manner. It may beunderstood that a Chinese character may be searched for by using Pinyin,or may be searched for by using strokes, for example, Wubi. Therefore,when the unit character is a Chinese character, correspondingly, thegrapheme may be a stroke forming the Chinese character.

The display 102 is configured to display a contact sequence 312generated according to the contact labels in the contact information,and generate a first graphemes sequence 314 and a second graphemessequence 316 around the position of the contact sequence 312 accordingto the graphemes in the contact information; where the first graphemessequence 314 is associated with the first unit character in each of themultiple contact labels, and the second graphemes sequence 316 isassociated with the second unit character in each of the multiplecontact labels.

Referring to FIG. 3, the display 102 is configured to display thecontact sequence 312 generated according to the contact labels in thecontact information. The contact sequence 312 may be the correspondingcontact data that is generated, according to the contact labels in thecontact information, by the processing apparatus 249 and screencontroller 242 of the processing apparatus 249 by calling the specificcontact sequence generation program stored in the memory 250. Thedisplay 102 correspondingly generates the contact sequence 312 accordingto generated contact data. Alternatively, an image processor associatedwith the display 102 may generate a corresponding contact presentationtemplate according to the contact labels in the contact information andthe contact presentation template is displayed on the display 102. Theabove processing manner of generating the contact sequence 312 accordingto the pre-stored contact information is known to those skilled in theart, and therefore the details are not described here again. For theconvenience of searching, the display 102 generates the first graphemessequence 314 and the second graphemes sequence 316 around the contactsequence 312. The first graphemes sequence 314 is associated with aninitial unit of characters in multiple contact labels, and the secondgraphemes sequence 316 is associated with a secondary unit of charactersin the multiple contact labels. The first graphemes sequence 314 and thesecond graphemes sequence 316 are generated for a combined search forthe unit characters at different positions of the contact labels in acombined search way so as to improve search efficiency and enhance userexperience. The unit characters at different positions of the contactlabels specifically refer to that: the first graphemes sequence 314 isassociated with the first unit character of each of the multiple contactlabels and the second graphemes sequence 316 is associated with thesecond unit character of each of the multiple contact labels. It may beunderstood that the generation of the first graphemes sequence 314 andthe second graphemes sequence 316 only illustrates the embodiments ofthe present invention. Alternatively, multiple graphemes sequences, forexample, a third graphemes sequence and a fourth graphemes sequence, maybe generated according to different preferences of setting the contactlabels. The third graphemes sequence is associated with the third unitcharacter of each of the multiple contact labels. Correspondingly, thefourth graphemes sequence is associated with the fourth unit characterof each of the multiple contact labels, and so on.

The processing apparatus 249 is configured to make a response to firstinput of a user to select a first grapheme from the first graphemessequence, and make a response to second input of the user to select asecond grapheme from the second graphemes sequence. The processingapparatus 249 then searches the contact information stored in the memory250, according to the selected first grapheme and second grapheme, for acontact label associated with the first grapheme and the secondgrapheme, and sends a search result to the display 102.

The processing apparatus 249 is configured to process data interactionbetween the user and mobile terminal 100, through the interactioninterface 310. To be specific, when the user inputs a grapheme selectioninstruction by using the interaction interface 310, that is, the display102, or another inputting apparatus of the mobile terminal 100, forexample, the input/control device 248, that is, when the user inputs thefirst input and the second input, the processing apparatus 249 makesresponses to the first input and the second input by using the screencontroller 242 or the input controller 248, and selects the firstgrapheme from the first graphemes sequence according to the first inputby using the processor 204 and selects the second grapheme from thesecond graphemes sequence according to the second input by using theprocessor 204. When the first grapheme and the second graphemecorresponding to the first input and the second input are obtained, theprocessor 204 searches the contact information stored in the memory 250for the contact label matched with the first grapheme and the secondgrapheme. The associated contact label refers to that a graphemessequence, which corresponds to or is included in the multiple units ofcharacters forming the contact labels, includes the selected firstgrapheme and second grapheme. The memory 250 may be a local memory, ormay be a remote memory, for example, a cloud memory accessing the datathrough the network. In this case, the processing apparatus 249 mayinitiate a request to a cloud storage server through the network. Thecloud storage server searches for and finds corresponding resourcesaccording to the request from the processing apparatus 249, and feedsback a search and finding result. When the processor searches out thecontact label matched with the first grapheme and the second graphemeaccording to the first grapheme and the second grapheme, the searchresult is sent by the screen controller 242 to the display 102 fordisplay. It may be understood that the first input and the second inputare used to differentiate different inputting actions rather than denotean inputting sequence. That is, the first input may be performed beforethe second input or after the second input, or the first input and thesecond input may be performed simultaneously. In addition, when theprocessing apparatus 249 makes a response to the first input, thedisplay 102 displays a contact label associated with the first grapheme,where the first grapheme is the first grapheme in elements forming orrepresenting the first unit character of a contact label.

Correspondingly, the display 102 is further configured to generate,according to the search result of the processing apparatus 249, acontact sequence including contact information of the contact labelmatched with the first grapheme and the second grapheme.

After receiving the search result sent by the processing apparatus 249,the display 102 updates the contact sequences according to the searchresult, that is, generating the contact sequences including the contactinformation of the contact label matched with the first grapheme and thesecond grapheme.

In the mobile terminal provided in this embodiment of the presentinvention, the first graphemes sequence and the second graphemessequence are displayed on the display so that the user is capable ofquickly searching out a desired contact by using a combinatorialsearching manner, thus improving contact search efficiency and userexperience on the mobile terminal.

Further, in the mobile terminal 100 provided in this embodiment of thepresent invention, the contact label matched with the first grapheme andthe second grapheme specifically refers to that the first grapheme isthe first grapheme in graphemes forming or representing the first unitcharacter of each of the contact labels, the second grapheme is thefirst grapheme in graphemes forming or representing the second unitcharacter of each of the contact labels, and the second unit characterfollows the first unit character.

For convenient use of the mobile terminal 100 provided in thisembodiment of the present invention during a contact searching process,and better accommodation of a user operation preference, the firstgrapheme and the second grapheme are included in the graphemes formingthe multiple unit characters of the contact label, and in addition, thefirst grapheme is the first grapheme in the graphemes forming orrepresenting the first unit character of each of the contact labels, thesecond grapheme is the first grapheme in the graphemes forming orrepresenting the second unit character of each of the contact labels,and the second unit character follows the first unit character. To bespecific, the first grapheme and the second grapheme are only searchedfor and compared in the first graphemes included in the first unitcharacter and the second unit character that form the contact label.This narrows down a search scope for searching for a correspondingcontact label by the processing apparatus 249 and therefore improves thesearching efficiency. In addition, the user is generally familiar withthe first grapheme in the graphemes included in the unit characters ofthe contact labels. Therefore, such an operation manner betteraccommodates a user operation preference.

Further, in the mobile terminal 100 provided in this embodiment of thepresent invention, the display 102 uses a touch screen display toperform grapheme selection from the first graphemes sequence 314 and thesecond graphemes sequence 316 in a touch manner, which is applicable tothe operation manner of the current mobile terminal 100.

Correspondingly, the processing apparatus 249 is configured to make aresponse to first sliding input of a user on the display 102, determinea sliding direction and sliding speed of the first sliding input, andthen that sliding the first graphemes sequence along the slidingdirection of the first sliding input by using the sliding speed of thefirst sliding input as an initial sliding speed is displayed on thedisplay 102; and select, from the first graphemes sequence, a grapheme,which corresponds to a preset first grapheme selection position as thefirst grapheme when the first graphemes sequence stops sliding.

When the grapheme selection from the first graphemes sequence 314 andthe second graphemes sequence 316 are performed in the touch manner, theselection may be performed by directly clicking a correspondinggrapheme. However, considering the probability that such adirectly-clicking manner may cause maloperation and the fact that thegraphemes may not all be simultaneously displayed in a grapheme list onthe display if an actual screen is not large enough, this embodiment ofthe present invention provides a manner for selecting the first graphemeand the second grapheme by sliding the first graphemes sequence 314 andthe second graphemes sequence 316. To be specific, the processingapparatus 249 processing apparatus 249 makes a response to the firstsliding input of the user on the display 102, and determines the slidingdirection and sliding speed of the first sliding input, and then thatsliding the first graphemes sequence along the sliding direction of thefirst sliding input by using the sliding speed of the first slidinginput as an initial sliding speed is displayed on the display 102; andwhen the first graphemes sequence stops sliding, selects a grapheme,which corresponds to a preset first grapheme selection position and isin the first graphemes sequence, as the first grapheme, where the presetfirst grapheme selection position is a default position or a positionspecified according to user requirements; for example, a specificposition mark is set on the display 102, and a grapheme at the positioncorresponding to the mark is selected as the first grapheme. The slidingthe first graphemes sequence 314 by using the sliding speed of the firstsliding input as an initial sliding speed enables the sliding of thefirst graphemes sequence 314 to meet the user expectation. For example,the user may slide the first graphemes sequence 314 at different slidingspeeds according to the position of an expected grapheme in the firstgraphemes sequence 314, thus realizing the goal of selecting a desiredgrapheme from the first graphemes sequence 314 quickly. For example,when the expected grapheme is the last grapheme in the first graphemessequence 314, the user may slide the first graphemes sequence at ahigher speed; when the expected grapheme is a relative front grapheme,the user may slide the first graphemes sequence 314 at a lower speed incase that a high speed sliding causes the expected grapheme goes beyondthe first grapheme selection position. When the first graphemes sequencestops sliding, the grapheme, which corresponds to the preset firstgrapheme selection position and is in the first graphemes sequence, isselected as the first grapheme. Alternatively, in the present invention,the manner for selecting the first grapheme is not limited to the abovemanner. In the above operation manner, after an operator assigns aninitial sliding speed for the first graphemes sequence 314, the firstgraphemes sequence 314 may slide at the assigned initial sliding speed.During the sliding process of the first graphemes sequence 314, the userdoes not intervene the sliding of the first graphemes sequence 314.However, in some scenarios, the user needs to precisely select the firstgrapheme by sliding the first graphemes sequence 314. In this case, thefirst graphemes sequence 314 is selected by using the touch screen forprecise movement. During this process, the first graphemes sequence 314may not be released. In this case, the processing apparatus 249 mayacquire in real time an instant speed of the user's sliding input alongthe touch screen, and synchronously slide the first graphemes sequence314 according to the acquired instant speed of the sliding input.

Similarly, the processing apparatus 249 processing apparatus 249 isfurther configured to make a response to second sliding input of a useron the display 102, determine a sliding direction and sliding speed ofthe second sliding input, and then that sliding the second graphemessequence along the sliding direction of the second sliding input byusing the sliding speed of the second sliding input as an initialsliding speed is displayed on the display 102; and when the secondgraphemes sequence stops sliding, select from the second graphemessequence a grapheme, which corresponds to a preset second graphemeselection position as the second graphemes sequence.

Further, the display provided in this embodiment of the presentinvention is further configured to highlight the first grapheme orhighlight the second grapheme. To make the user clearly acquire oridentify the selected first grapheme and second grapheme, according tothis embodiment of the present invention, the display highlights thefirst grapheme or the second grapheme specifically by changing displayfactors of the first grapheme and the second grapheme, for example,highlighting the first grapheme and the second grapheme by changingdisplay factors such as the color, size, shape, and illumination. Inaddition, this embodiment of the present invention also provide anothermanner for highlighting the first grapheme or the second grapheme, thatis, highlighting the first grapheme at the first grapheme selectionposition by using the display 102 or highlighting the first graphemearound the first grapheme selection position in a tip balloon way byusing the display 102; meanwhile, highlighting the second grapheme atthe second grapheme selection position by using the display 102 orhighlighting the second grapheme around the second grapheme selectionposition in a tip balloon way by using the display 102.

Further, in a manner for improving the user operation experienceprovided in this embodiment of the present invention, when the display102 highlights the first grapheme, the processing apparatus 249processing apparatus 249 proportionally or exponentially scales downunselected graphemes from the close to the distant according to adistance between each of the unselected graphemes, except the selectedfirst grapheme, and the selected first grapheme in the first graphemessequence, and displays, on the display 102, the unselected andproportionally or exponentially scaled-down graphemes in the firstgraphemes sequence; and when the display 102 highlights the secondgrapheme, the processing apparatus 249 processing apparatus 249proportionally or exponentially scales down the unselected graphemesfrom the close to the distant according to a distance between each ofthe unselected graphemes, except the selected second grapheme, and theselected second grapheme in the second graphemes sequence, and displays,on the display 102, the unselected and proportionally or exponentiallyscaled-down graphemes in the second graphemes sequence.

In the manner for improving the user operation experience provided inthis embodiment of the present invention, the unselected graphemes inthe first and second graphemes sequences is proportionally scaled downaccording to distances between the unselected graphemes in the first andsecond graphemes sequences and the corresponding selected first andsecond graphemes so that the selected graphemes are highlighted. In thismanner, the user is capable of conveniently identifying the selectedfirst and second graphemes, which improves the user experience quality.

Further, based on selecting the first grapheme and the second graphemeby using the sliding manner, this embodiment of the present inventionfurther includes: when the sliding the first graphemes sequence alongthe sliding direction of the first sliding input by using the slidingspeed of the first sliding input as an initial sliding speed isdisplayed on the display 102, processing apparatus 249 is furtherconfigured to gradually reduce the sliding speed of the first graphemessequence in a constant damping way or an increasing damping way, anddisplay the speed reduction status of the first graphemes sequence inthe constant damping or increasing damping way; or when the sliding thesecond graphemes sequence along the sliding direction of the secondsliding input by using the sliding speed of the second sliding input asan initial sliding speed is displayed on the display 102, the processingapparatus 249 processing apparatus 249 is further configured togradually reduce the sliding speed of the second graphemes sequence inthe constant damping way or increasing damping way, and display thespeed reduction status of the second graphemes sequence in the constantdamping or increasing damping way.

In the above processing manner, the sliding first graphemes sequence andsecond graphemes sequence may stop automatically after sliding for aperiod of time so that the user may view the current sliding status ofthe first graphemes sequence or the second graphemes sequence in time,thus improving the user experience quality.

Further, based on selecting the first grapheme and the second graphemeby using the sliding manner, this embodiment of the present inventionfurther includes: the processing apparatus 249 processing apparatus 249is further configured to determine whether the sliding speed of thefirst graphemes sequence is greater than a preset speed threshold, andinstruct the display 102 to suspend the highlighting of the grapheme,which corresponds to the first grapheme selection position and is in thefirst graphemes sequence, when the sliding speed of the first graphemeis greater than the preset speed threshold; or the processing apparatus249 processing apparatus 249 is further configured to determine whetherthe sliding speed of the second graphemes sequence is greater than apreset speed threshold, and when the sliding speed of the secondgrapheme is greater than the preset speed threshold, instruct thedisplay 102 to suspend the highlighting of the grapheme, whichcorresponds to the second grapheme selection position and is in thesecond graphemes sequence.

In the technical solution provided in this embodiment of the presentinvention, it is determined, by comparing the first graphemes sequenceor the second graphemes sequence with a preset speed threshold, whetherto highlight the first grapheme or the second grapheme, that is,highlighting the grapheme, which corresponds to the first graphemeselection position and is in the first graphemes sequence, or thegrapheme, which corresponds to the second grapheme selection positionand is in the second graphemes sequence. When the sliding speed ishigher than the preset speed threshold, it may indicate that a user'sexpected first grapheme or second grapheme is far from the firstgrapheme selection position or the second grapheme selection position.In this case, it is not necessary to highlight each grapheme passingthrough the first grapheme selection position or the second graphemeselection position, which therefore reduces the processing load of theprocessor or the display, saves the processing resources, improves theprocessing efficiency, and enhances the user experience.

Further, the mobile terminal 100 provided in this embodiment of thepresent invention may display the first graphemes sequence and thesecond graphemes sequence at the same position. To be specific, thefirst graphemes sequence is displayed at a first display position on thedisplay and the second graphemes sequence is displayed at a seconddisplay position on the display; when the first graphemes sequence isdisplayed, the second graphemes sequence is hidden; and when the secondelement sequence is displayed, the first graphemes sequence is hidden.Specifically, the display may be implemented by the display 102. To bespecific, the display 102 displays the first graphemes sequence at thefirst display position and displays the second graphemes sequence at thesecond display position, where the first display position and the seconddisplay position overlap. First, the display displays the firstgraphemes sequence by default, and when the processing apparatus 249receives the second input of the user, the display 102 hides the firstgraphemes sequence and displays the second graphemes sequence at thesecond display position overlapping the first display position.

In the technical solution provided in this embodiment of the presentinvention, the first graphemes sequence and the second graphemessequence are displayed at the first display position and the seconddisplay position that overlap each other, so as to save display space ofthe display 102 of the mobile terminal. In addition, display conversionbetween the first graphemes sequence and the second graphemes sequenceis started when the processor receives the second input, so that theinteraction interface generated on the mobile terminal is simple, thusimproving display efficiency and enhancing the user experience quality.

Further, the mobile terminal 100 provided in this embodiment of thepresent invention may also display the first graphemes sequence and thesecond graphemes sequence at different positions. To be specific, thefirst graphemes sequence is displayed at the first display position onthe display, the second graphemes sequence is displayed at the seconddisplay position on the display, and the first display position and thesecond display position do not overlap. Specifically, the display may beimplemented by the display 102. To be specific, the display 102 displaysthe first graphemes sequence and the second graphemes sequence atdifferent display positions. To make the user clearly distinguish thefirst graphemes sequence from the second graphemes sequence, the firstgraphemes sequence and the second graphemes sequence may be arrangedalong two vertical dimensions, and the arrangement direction of thefirst graphemes sequence is vertical to, or forms a 90° angle with, thearrangement direction of the second graphemes sequence. It may beunderstood that a sufficient distance between the first graphemessequence and the second graphemes sequence also enables the user todifferentiate the two graphemes sequences. For example, the firstgraphemes sequence is displayed at the top of the display, and thesecond graphemes sequence is displayed at the bottom of the display; orthe first graphemes sequence is displayed on the left side of thedisplay, and the second graphemes sequence is displayed on the rightside of the display. In addition, to ensure that the positions of thefirst graphemes sequence and the second graphemes sequence satisfy userpreferences, the first graphemes sequence and the second graphemessequence may be customized according to user preferences. To bespecific, the display positions of the first graphemes sequence and thesecond graphemes sequence may be changed or be set at differentpositions on the display according to user requirements.

To enable the user to quickly learn the contact searching function ofthe mobile terminal 100 provided in this embodiment of the presentinvention, the display 102, by displaying the first graphemes sequence314 and the second graphemes sequence 316 at different positions,teaches or instructs the user, in a vivid presentation way, to quicklyselect the corresponding grapheme by using the displayed first graphemessequence 314 and second graphemes sequence 316 in order to quicklysearch out a target contact. In this manner, the complexity ofoperations for contact searching by using the mobile terminal 100 isreduced and the user experience quality is improved.

Further, in the mobile terminal 100 provided in the embodiments of thepresent invention, the first graphemes sequence displayed on the display102 includes only the first grapheme in the graphemes forming the firstunit character of a recorded contact label, where the same firstgrapheme appears only once in the first graphemes sequence; the secondgraphemes sequence displayed on the display includes only the firstgrapheme in the graphemes forming the second unit character of therecorded contact label, where the same second grapheme appears only oncein the second graphemes sequence; or the second graphemes sequenceincludes only the first grapheme in the graphemes forming the secondunit character of a contact label having the first grapheme, where thesame first grapheme appears only once in the second graphemes sequence.

In this embodiment of the present invention, the first graphemessequence and the second graphemes sequence include only the firstgraphemes in the graphemes forming the first unit character of therecorded contact label, where the same first grapheme appears only oncein the first graphemes sequence and the second graphemes sequence. Thatis, the first graphemes sequence and the second graphemes sequence aregenerated according to the contact labels in the contact informationstored in the memory 250. Therefore, the first graphemes sequence andthe second graphemes sequence do not include extra graphemes, that is,do not include unrecorded first graphemes. The first grapheme refers tothe first grapheme in the elements forming the first unit character ofthe contact label. In this manner, the first graphemes sequence appearssimple and occupies fewer resources, thereby improving user experience.Alternatively, to improve the search efficiency, the second graphemessequence includes only the first grapheme in the graphemes forming thesecond unit character of the contact label having the first grapheme,where the same second grapheme appears only once in the second graphemessequence. This solution is directed to allowing the user, when using themobile terminal 100 provided in this embodiment of the present inventionto search for a contact, to obtain, through filtering, a contact labelhaving the first grapheme according to the grapheme selected by thefirst input. In this case, the second graphemes sequence may includeonly the first grapheme in the graphemes forming the second unitcharacter of the contact label including the first grapheme. In otherwords, the second graphemes sequence is selected from the graphemesincluded in a contact label subset defined by the first graphemeselected by the first input. This may further narrow down a search scopefor selecting the second grapheme, improves the search speed, reducesthe load and resources of the processor, and enhances the userexperience quality.

Further, in the mobile terminal 100 provided in this embodiment of thepresent invention, the display 102 is further configured to generate acontact sequence including contact information of the contact labelmatched with the first grapheme and the second grapheme according to asearch result of the processing apparatus 249, which specificallyincludes:

the display 102 loads the contact label matched with the first graphemeand the second grapheme and contact information that corresponds to thecontact label matched with the first grapheme and the second grapheme toa preset contact information presentation template, and displays thecontact information presentation template loaded with the contact labelmatched with the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme, so as to form the contact sequence.Specifically, the displaying, by the display 102, the contactinformation presentation template loaded with the contact label matchedwith the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme so as to form the contact sequenceincludes:

the display 102 displays, in a staggered overlay way, the contactinformation presentation template loaded with the contact label matchedwith the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme so as to form the contact sequence; or

the display 102 displays, in a ring or fan arrangement way, the contactinformation presentation template loaded with the contact label matchedwith the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme so as to form the contact sequence; or

the display 102 displays, in a way of different sizes and depths, thecontact information presentation template loaded with the contact labelmatched with the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme, where a front contact informationpresentation template is displayed in a way of a maximum size and fulldefinition while other contact information presentation templates aredisplayed in a gradual fading way according to the depths that increasegradually, so that the contact sequence is formed.

In the above technical solution provided in this embodiment of thepresent invention, the display 102 may load, according a preset settingmanner, the contact information that is searched out and corresponds tothe contact label matched with the first grapheme and the secondgrapheme, to a preset contact information presentation template, anddisplay the contact information presentation template on the display.The presented contact sequence is more customized by using the presetpresentation template to bear the contact information that is searchedout, satisfying customized user requirements and improving the userexperience quality.

An embodiment of the present invention further provides a contactsearching method 400 applied to the mobile terminal 100. The contactsearching method provided in this embodiment of the present inventionrefers to a specific process of contact searching performed by themobile terminal 100 provided by the embodiment of the present invention.

Referring to FIG. 4, the contact searching method 400 provided in thisembodiment of the present invention specifically includes:

S410: Receive first input of a user.

S420: Select a first grapheme from a first graphemes sequence accordingto the first input, the first graphemes sequence being displayed on adisplay; where the first graphemes sequence is associated with aninitial unit of characters in multiple contact labels.

S430: Receive second input of the user.

S440: Select a second grapheme from a second graphemes sequenceaccording to the second input, the second graphemes sequence beingdisplayed on the display, and the second graphemes sequence beingassociated with a secondary unit of characters in the multiple contactlabels; where each of the contact labels includes at least two units ofcharacters, and a unit character is formed or represented by at leastone grapheme.

S450: Search for and display a contact label on the display, wherecontact label is matched with the first grapheme and the secondgrapheme.

For quickly searching out a contact, the memory 250 of the mobileterminal 100 stores the contact information, where the contactinformation generally has fixed information content and the informationcontent generally includes: a contact label, a contact address, acontact phone number, a contact email address, a contact fax, a contactphoto, a contact gender, and so on. The information content is generallystored in the memory 250 in a certain format. Generally, the contactlabel is an identifiable identifier that is most commonly used for theuser to differentiate contacts and search for a contact, for example,the name of a contact, but not limited to the name of the contact. Insome application scenarios, another expression manner may also be usedas the contact label, for example, a pictogram, a text, or a similarexpression manner. In this embodiment of the present invention, thecontact label includes at least two units of characters. Setting atleast two units of characters in the contact label aims to ensure thatthe contact label satisfies a common setting manner of the name of thecontact. To be specific, generally the name of the contact includes twoparts, that is, a given name and a family name. The unit character is anidentifiable syntax unit formed and represented by at least one graphemeor formed or represented, in a certain rule, by multiple graphemes. Thewording “form” refers to that the unit character is directly formed bycombining the graphemes. The wording “represent” refers to that the unitcharacter is not directly formed by the graphemes but indicated by thegraphemes indirectly. For example, a Chinese character may berepresented by the Pinyin or stokes corresponding to the Chinesecharacter. The grapheme refers to a minimum composition unit or element,which cannot be segmented, for forming or representing the unitcharacter. Specifically, when the unit character is a Chinese character,correspondingly, the graphemes are Pinyin letters corresponding to theChinese character; or when the unit character is a word,correspondingly, the grapheme is the first letter in letters forming theword, where the word refers to a minimum semantic unit that has adefinite meaning and is formed by one or multiple letters through aletter word formation manner. It may be understood that a Chinesecharacter may be searched for by using Pinyin, or strokes, for example,Wubi (a Chinese character input method). Therefore, when the unitcharacter is a Chinese character, correspondingly, the grapheme may be astroke forming the Chinese character.

In the contact searching method provided in this embodiment of thepresent invention, the first graphemes sequence and the second graphemessequence are displayed on the display so that the user is capable ofquickly searching out a desired contact by using a combined searchingmanner, thus improving contact search efficiency and user experience onthe mobile terminal.

Further, in the contact searching method 400 provided in this embodimentof the present invention, the contact label matched with the firstgrapheme and the second grapheme specifically refers to that the firstgrapheme is the first grapheme in the graphemes forming or representingthe first unit character of each of the contact labels, the secondgrapheme is the first grapheme in the graphemes forming or representingthe second unit character of each of the contact labels, and the secondunit character follows the first unit character.

For convenient use of the contact searching method 400 provided in thisembodiment of the present invention during the contact searchingprocess, and better accommodation of a user operation preference, thefirst grapheme and the second grapheme are included in the graphemesforming the multiple unit characters of the contact label, and inaddition, the first grapheme is the first grapheme in the graphemesforming or representing the first unit character of each of the contactlabels, the second grapheme is the first grapheme in the graphemesforming or representing the second unit character of each of the contactlabels, and the second unit character follows the first unit character.To be specific, the first grapheme and the second grapheme are onlysearched for and compared in the first graphemes included in the firstunit character and the second unit character that form the contactlabel. This narrows down a search scope for searching for acorresponding contact label and therefore improves the searchingefficiency. In addition, the user is generally familiar with the firstgrapheme in the graphemes included in the unit characters of the contactlabels. Therefore, such an operation manner better accommodates a useroperation preference.

Further, the contact searching method 400 provided in this embodiment ofthe present invention may be applicable to a mobile terminal having atouch screen display. Correspondingly, in the contact searching method400, step S410, that is, receiving first input of a user, specificallyincludes:

receiving first sliding input of the user on the display, anddetermining a sliding direction and sliding speed of the first slidinginput; and

correspondingly, step S420, that is, the selecting a first grapheme froma first graphemes sequence according to the first input, includes:

sliding the first graphemes sequence along the sliding direction of thefirst sliding input by using the sliding speed of the first slidinginput as an initial sliding speed; and

when the first graphemes sequence stops sliding, selecting a grapheme,which corresponds to a preset first grapheme selection position and isin the first graphemes sequence, as the first grapheme.

When the contact searching method provided in this embodiment of thepresent invention is implemented on a mobile terminal having a touchscreen display, as shown in FIG. 3, grapheme selection from the firstgraphemes sequence 314 and the second graphemes sequence 316 by adoptinga touch manner may generally be implemented by directly clicking acorresponding grapheme. However, considering the probability that such adirectly-clicking manner may cause mal-operation, the contact searchingapparatus provided in this embodiment of the present invention selectsthe first grapheme and the second grapheme by sliding the firstgraphemes sequence 314 and the second graphemes sequence 316. To bespecific, the processor makes a response to the first sliding input ofthe user, and determines the sliding direction and sliding speed of thefirst sliding input, and then slides the first graphemes sequence alongthe sliding direction of the first sliding input by using the slidingspeed of the first sliding input as an initial sliding speed; and whenthe first graphemes sequence stops sliding, selects the grapheme, whichcorresponds to the preset first grapheme selection position and is inthe first graphemes sequence, as the first grapheme, where the presetfirst grapheme selection position is a default position or a positionspecified according to user requirements; for example, a specificposition mark is set on the display 102, and a grapheme at the positioncorresponding to the mark is selected as the first grapheme. The slidingthe first graphemes sequence 314 by using the sliding speed of the firstsliding input as an initial sliding speed enables the sliding of thefirst graphemes sequence 314 to meet the user expectation. For example,the user may slide the first graphemes sequence 314 at different slidingspeeds according to the position of an expected grapheme in the firstgraphemes sequence 314, thus realizing the goal of selecting a desiredgrapheme from the first graphemes sequence 314 quickly. For example,when the expected grapheme is the last grapheme in the first graphemessequence 314, the user may slide the first graphemes sequence at ahigher speed; when the expected grapheme is a relative front grapheme,the user may slide the first graphemes sequence 314 at a lower speed incase that a high speed sliding causes the expected grapheme goes beyondthe first grapheme selection position. When the first graphemes sequencestops sliding, the grapheme, which corresponds to the preset firstgrapheme selection position and is in the first graphemes sequence, isselected as the first grapheme. Alternatively, in the present invention,the manner for selecting the first grapheme is not limited to the abovemanner. In the above operation manner, after an operator assigns aninitial sliding speed for the first graphemes sequence 314, the firstgraphemes sequence 314 may slide at the assigned initial sliding speed.During the sliding process of the first graphemes sequence 314, the userdoes not intervene the sliding of the first graphemes sequence 314.However, in some scenarios, the user needs to precisely select the firstgrapheme by sliding the first graphemes sequence 314. In this case, thefirst graphemes sequence 314 is selected by using the touch screen forprecise movement. During this process, the first graphemes sequence 314may not be released. In this case, the processing apparatus 249 mayacquire in real time an instant speed of the user's sliding input alongthe touch screen, and synchronously slide the first graphemes sequence314 according to the acquired instant speed of the sliding input.

Similarly, in the contact searching method 400 provided in thisembodiment of the present invention, step S430, that is, receivingsecond input of the user, specifically includes:

receiving second sliding input of the user on the display, anddetermining a sliding direction and sliding speed of the second slidinginput; and

correspondingly, step S440, that is, selecting a second grapheme from asecond graphemes sequence according to the second input, includes:

sliding the second graphemes sequence along the sliding direction of thesecond sliding input by using the sliding speed of the second slidinginput as an initial sliding speed; and

selecting a grapheme, which corresponds to a preset second graphemeselection position and is in the second graphemes sequence, as thesecond grapheme.

Further, referring to FIG. 4 a, the contact searching method 400provided in this embodiment of the present invention further includes:

S460: Highlight the first grapheme or highlight the second grapheme.

To make the user clearly acquire or identify the selected first graphemeand second grapheme, the contact searching method 400 provided in thisembodiment of the present invention further includes highlighting thefirst grapheme or the second grapheme. Specifically, the first graphemeand the second grapheme are highlighted by changing display factors ofthe first grapheme and the second grapheme, for example, changingdisplay factors such as the color, size, shape, and illumination. Inaddition, this embodiment of the present invention also provide anothermanner for highlighting the first grapheme or the second grapheme, thatis, highlighting the first grapheme at the first grapheme selectionposition or highlighting the first grapheme around the first graphemeselection position in a tip balloon way; meanwhile, highlighting thesecond grapheme at the second grapheme selection position orhighlighting the second grapheme around the second grapheme selectionposition in a tip balloon way.

Further, referring to FIG. 4 b, based on selecting the first graphemeand the second grapheme by using the sliding manner, the contactsearching method 400 provided in this embodiment of the presentinvention further includes:

S470: When highlighting the first grapheme, proportionally orexponentially scale down the unselected graphemes from the close to thedistant according to a distance between each of the unselected graphemesexcept the selected first grapheme and the selected first grapheme inthe first graphemes sequence; and

S480: When highlighting the second grapheme, proportionally orexponentially scale down the unselected graphemes from the close to thedistant according to a distance between each of the unselected graphemesexcept the selected second grapheme and the selected second grapheme inthe second graphemes sequence.

In the method provided in this embodiment of the present invention, theunselected graphemes in the first and second graphemes sequences isproportionally scaled down according to distances between the unselectedgraphemes, which are in the first and second graphemes sequences, andthe corresponding selected first and second graphemes, so that theselected graphemes are highlighted. In this manner, the user is capableof conveniently identifying the selected first and second graphemes,which improves the user experience quality.

Further, referring to FIG. 5, based on selecting the first grapheme andthe second grapheme by using the sliding manner, the contact searchingmethod 400 provided in this embodiment of the present invention furtherincludes:

S500: When sliding the first graphemes sequence along the slidingdirection of the first sliding input by using the sliding speed of thefirst sliding input as an initial sliding speed, gradually reduce thesliding speed of the first graphemes sequence in a constant damping wayor increasing damping way; or

S510: When sliding the second graphemes sequence along the slidingdirection of the second sliding input by using the sliding speed of thesecond sliding input as an initial sliding speed, gradually reduce thesliding speed of the second graphemes sequence in a constant damping wayor increasing damping way.

In the above method provided in this embodiment of the presentinvention, the sliding first graphemes sequence and second graphemessequence may stop automatically after sliding for a period of time sothat the user may view the current sliding status of the first graphemessequence or the second graphemes sequence in time, thus improving theuser experience quality.

Further, referring to FIG. 5 a, based on selecting the first graphemeand the second grapheme by using the sliding manner, the contactsearching method 400 provided in this embodiment of the presentinvention further includes:

S520: Determine whether the sliding speed of the first graphemessequence is higher than a preset speed threshold; and

S530: When the sliding speed of the first grapheme is higher than thepreset speed threshold, suspend the highlighting of the grapheme, whichcorresponds to the first grapheme selection position and is in the firstgraphemes sequence; or

S540: Determine whether the sliding speed of the second graphemessequence is higher than a preset speed threshold; and

S550: When the sliding speed of the second grapheme is higher than thepreset speed threshold, suspend the highlighting of the grapheme, whichcorresponds to the second grapheme selection position and is in thesecond graphemes sequence.

In the above method provided in this embodiment of the presentinvention, it is determined, by comparing the first graphemes sequenceor the second graphemes sequence with a preset speed threshold, whetherto highlight the first grapheme or the second grapheme, that is,highlighting the grapheme, which corresponds to the first graphemeselection position and is in the first graphemes sequence, or thegrapheme, which corresponds to the second grapheme selection positionand is in the second graphemes sequence. When the sliding speed ishigher than the preset speed threshold, it indicates that a user'sexpected first grapheme or second grapheme is far from the firstgrapheme selection position or the second grapheme selection position.In this case, it is not necessary to highlight each grapheme passingthrough the first grapheme selection position or the second graphemeselection position, which therefore reduces the processing load of theprocessor or the display, saves the processing resources, improves theprocessing efficiency, and enhances the user experience.

Further, in the contact searching method 400 provided in this embodimentof the present invention, the first graphemes sequence is displayed at afirst display position on the display and the second graphemes sequenceis display at a second display position on the display; when the firstgraphemes sequence is displayed, the second graphemes sequence ishidden; and when the second graphemes sequence is displayed, the firstgraphemes sequence is hidden.

In the technical solution provided in this embodiment of the presentinvention, the first graphemes sequence and the second graphemessequence are displayed at the first display position and the seconddisplay position that overlap each other, so as to save display space.In addition, display conversion between the first graphemes sequence andthe second graphemes sequence is started when the user input the secondinput so that the interaction interface generated on the mobile terminalis simple, thus improving display efficiency and enhancing the userexperience quality.

Further, in the contact searching method 400 provided in this embodimentof the present invention, the first graphemes sequence is displayed atthe first display position on the display and the second graphemessequence is displayed at the second display position on the display;where the first display position and the second display position do notoverlap. To make the user clearly distinguish the first graphemessequence from the second graphemes sequence, the first graphemessequence and the second graphemes sequence may be arranged along twovertical dimensions, and the arrangement direction of the firstgraphemes sequence is vertical to, or forms a 90° angle with, thearrangement direction of the second graphemes sequence. It may beunderstood that a sufficient distance between the first graphemessequence and the second graphemes sequence also enables the user todifferentiate the two graphemes sequences. For example, the firstgraphemes sequence is displayed at the top of the display, and thesecond graphemes sequence is displayed at the bottom of the display; orthe first graphemes sequence is displayed on the left side of thedisplay, and the second graphemes sequence is displayed on the rightside of the display. In addition, to ensure that the positions of thefirst graphemes sequence and the second graphemes sequence satisfy userpreferences, the first graphemes sequence and the second graphemessequence may be customized according to user preferences. To bespecific, the display positions of the first graphemes sequence and thesecond graphemes sequence may be changed or be set at differentpositions on the display according to user requirements.

To enable the user to quickly learn the contact searching methodprovided in this embodiment of the present invention, the firstgraphemes sequence and the second graphemes sequence is displayed atdifferent positions on the display, so as to teach or instruct the user,in a vivid presentation way, to quickly select the correspondinggrapheme by using the displayed first graphemes sequence and secondgraphemes sequence in order to quickly search out a target contact. Inthis manner, the complexity of learning the contact searching operationsis reduced and the user experience quality is improved.

Further, in the contact searching method 400 provided in this embodimentof the present invention, the first graphemes sequence includes only thefirst grapheme in the graphemes forming the first unit character of arecorded contact label, where the same first grapheme appears only oncein the first graphemes sequence; the second graphemes sequence includesonly the first grapheme in the graphemes forming the second unitcharacter of the recorded contact label, where the same second graphemeappears only once in the second graphemes sequence; or the secondgraphemes sequence includes only the first grapheme in the graphemesforming the second unit character of a contact label having the firstgrapheme, where the same first grapheme appears only once in the secondgraphemes sequence.

In this embodiment of the present invention, the first graphemessequence and the second graphemes sequence include only the firstgraphemes in the graphemes forming the first unit character of therecorded contact label, where the same first grapheme appears only oncein the first graphemes sequence and the second graphemes sequence. Thatis, the first graphemes sequence and the second graphemes sequence aregenerated according to the contact labels in the contact informationstored in the memory 250. Therefore, the first graphemes sequence andthe second graphemes sequence do not include extra graphemes, that is,do not include unrecorded first graphemes. The first grapheme refers tothe first grapheme in the elements forming the first unit character ofthe contact label. In this manner, the first graphemes sequence appearssimple and occupies fewer resources, thereby improving user experience.Alternatively, to improve the search efficiency, the second graphemessequence includes only the first grapheme in the graphemes forming thesecond unit character of the contact label having the first grapheme,where the same second grapheme appears only once in the second graphemessequence. This solution is directed to allowing the user, when using themobile terminal 100 provided in this embodiment of the present inventionto search for a contact, to obtain, through filtering, a contact labelhaving the first grapheme according to the grapheme selected by thefirst input. In this case, the second graphemes sequence may includeonly the first grapheme in the graphemes forming the second unitcharacter of the contact label including the first grapheme. In otherwords, the second graphemes sequence is selected from the graphemesincluded in the contact label subset defined by the first graphemeselected by the first input. This may further narrow down a search scopefor selecting the second grapheme, improves the search speed, reducesthe load and resources of the processor, and enhances the userexperience quality.

Further, in the contact searching method 400 provided in this embodimentof the present invention, step S450, that is, displaying the contactlabel matched with the first grapheme and the second grapheme on thedisplay, specifically includes:

loading the contact label matched with the first grapheme and the secondgrapheme and contact information that corresponds to the contact labelmatched with the first grapheme and the second grapheme to a presetcontact information presentation template; and

displaying the contact information presentation template loaded with thecontact label matched with the first grapheme and the second graphemeand the contact information that corresponds to the contact labelmatched with the first grapheme and the second grapheme.

Specifically, the displaying, by the displaying module, the contactinformation presentation template loaded with the contact label matchedwith the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme includes:

displaying, in a staggered overlay way, the contact informationpresentation template loaded with the contact label matched with thefirst grapheme and the second grapheme and the contact information thatcorresponds to the contact label matched with the first grapheme and thesecond grapheme; or

displaying, in a ring or fan arrangement way, the contact informationpresentation template loaded with the contact label matched with thefirst grapheme and the second grapheme and the contact information thatcorresponds to the contact label matched with the first grapheme and thesecond grapheme; or

displaying, in a way of different sizes and depths, the contactinformation presentation template loaded with the contact label matchedwith the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme, where the front contact informationpresentation template is displayed in a way of maximum size and fulldefinition while other contact information presentation templates aredisplayed in a gradual fading way according to the depths that increasegradually.

In the contact searching method 400, the contact information, which issearched out and corresponds to the contact label matched with the firstgrapheme and the second grapheme, is allowed to be loaded to a presetcontact information presentation template, and the contact informationpresentation template is displayed on the display. The presented contactsequence is more customized by using the preset presentation template tobear the contact information that is searched out, satisfying customizeduser requirements and providing user experience quality.

Referring to FIG. 6, a contact searching apparatus 600 provided in anembodiment of the present invention for performing the contact searchingmethod includes a displaying module 610, an inputting module 620, aprocessing module 630, and a searching module 640.

The displaying module 610 is configured to display a first graphemessequence and a second graphemes sequence.

The displaying module 610 should be understand as a combinationincluding a display and hardware and software that control the displaycontent and effect of the display; or the displaying module 610 includesvarious hardware and software resources that are needed for implementingthe functions.

The inputting module 620 is configured to receive first input of andsecond input of a user.

The processing module 630 is configured to select a first grapheme fromthe first graphemes sequence according to the first input and select asecond grapheme from the second graphemes sequence according to thesecond input; where the first graphemes sequence is associated with aninitial unit of characters in multiple contact labels, the secondgraphemes sequence is associated with a secondary unit of characters inmultiple contact labels, each of the contact labels includes at leasttwo units of characters, and a unit character is formed or representedby at least one grapheme.

The searching module 640 is configured to search the contact informationincluding the contact labels for a contact label associated with thefirst grapheme and the second grapheme.

The displaying module 610 is further configured to display the contactlabel matched with the first grapheme and the second grapheme searchedfor by the searching module 640.

For quickly searching out a contact, the user generally pre-stores thecontact information in a readable memory, for example, the memory 250 ofthe mobile terminal. The contact information generally has fixedinformation content, where the information content generally includes: acontact label, a contact address, a contact phone number, a contactemail address, a contact fax, a contact photo, a contact gender and soon. The information content is generally stored in the readable memoryin a certain format. Generally, the contact label is an identifiableidentifier most commonly used for the user to differentiate contacts andsearch for a contact, for example, the name of a contact, but notlimited to the name of the contact. In some application scenarios,another expression manner may also be used as the contact label, forexample, a pictogram, a text, or a similar expression manner. In thisembodiment of the present invention, the contact label includes at leasttwo units of characters. Setting at least two units of characters in thecontact label aims to ensure that the contact label satisfies a commonsetting manner of the name of the contact. To be specific, generally thename of the contact includes two parts, that is, a given name and afamily name. The unit character is an identifiable semantic unit formedor represented by at least one grapheme or formed or represented, in acertain rule, by multiple graphemes. The wording “form” refers to thatthe unit character is directly formed by combining the graphemes. Thewording “represent” refers to that the unit character is not directlyformed by the graphemes but indicated by the graphemes indirectly. Forexample, a Chinese character may be represented by the Pinyin or stokescorresponding to the Chinese character. Specifically, when the unitcharacter is a Chinese character, correspondingly, the graphemes are acombination of Pinyin letters of the Chinese character; or when the unitcharacter is a word, correspondingly, the grapheme is the first letterin letters forming the word, where the word refers to a minimum semanticunit that has a definite meaning and is formed by one or multipleletters through a letter word formation manner. It may be understoodthat a Chinese character may be searched for by using Pinyin, orstrokes, for example, Wubi (a Chinese character input method).Therefore, when the unit character is a Chinese character,correspondingly, the grapheme may be a stroke forming the Chinesecharacter. It may be understood that the contact searching apparatus 600provided in this embodiment of the present invention may further includea storage module 650, where the storage module 650 is configured tostore the contact information including the contact labels. That is, thecontact information including the contact labels is stored in thestorage module 650.

In the contact searching apparatus provided in this embodiment of thepresent invention, the processing module 610 displays the firstgraphemes sequence and the second graphemes sequence on the display sothat the user is capable of quickly searching out a desired contact byusing a combined searching manner, thus improving contact searchefficiency and user experience on the mobile terminal.

Further, in the contact searching apparatus 600 provided in thisembodiment of the present invention, the contact label matched with thefirst grapheme and the second grapheme specifically refers to that thefirst grapheme is the first grapheme in the graphemes forming orrepresenting the first unit character of each of the contact labels, thesecond grapheme is the first grapheme in the graphemes forming orrepresenting the second unit character of each of the contact labels,and the second unit character follows the first unit character.

In the contact searching apparatus 600 provided in this embodiment ofthe present invention, scopes of the graphemes included in the firstgraphemes sequence and the second graphemes sequence are restricted tonarrow down a search scope for searching for a corresponding contactlabel in order to improve the search efficiency. In addition, the useris generally familiar with the first grapheme in the graphemes includedin the unit characters of the contact labels. Therefore, such anoperation manner better accommodates a user operation preference.

Further, referring to FIG. 6 a, the contact searching apparatus providedin this embodiment of the present invention may include a touch screendisplay having a touch control function. Correspondingly, the inputtingmodule 620 includes a sliding sensing unit 622 and a sliding parameterobtaining unit 624; and the processing module 630 includes a slidingtriggering unit 632 and a grapheme selecting unit 634.

The sliding sensing unit 622 is configured to receive first slidinginput of the user on the display.

The sliding parameter obtaining unit 624 is configured to determine asliding direction and sliding speed of the first sliding input.

The sliding triggering unit 632 is configured to slide the firstgraphemes sequence along the sliding direction of the first slidinginput by using the sliding speed of the first sliding input as aninitial sliding speed.

The grapheme selecting unit 634 is configured to: when the firstgraphemes sequence stops sliding, select a grapheme, which correspondsto a preset first grapheme selection position and is in the firstgraphemes sequence, as the first grapheme.

When the contact searching apparatus provided in this embodiment of thepresent invention includes the touch screen display having the touchcontrol function, as shown in FIG. 3, the first grapheme and the secondgrapheme may be selected by using a touch manner. Grapheme selectionfrom the first graphemes sequence 314 and the second graphemes sequence316 by using a touch manner may generally be implemented by directlyclicking a corresponding grapheme. However, considering the probabilitythat such a directly-clicking manner may cause mal-operation and thefact that the graphemes may not all be simultaneously displayed in agrapheme list on the display if the actual screen is not large enough,the contact searching apparatus provided in this embodiment of thepresent invention selects the first grapheme and the second grapheme bysliding the first graphemes sequence 314 and the second graphemessequence 316. To be specific, the sliding sensing unit 622 detects thefirst sliding input of the user, and the sliding parameter determiningunit determines the sliding direction and sliding speed of the firstsliding input, and then the sliding triggering unit 632 slides the firstgraphemes sequence along the sliding direction of the first slidinginput by using the sliding speed of the first sliding input as aninitial sliding speed; when the first graphemes sequence stops sliding,the grapheme selecting unit 634 selects the grapheme corresponding tothe preset first grapheme selection position from the first graphemessequence as the first grapheme, where the preset first graphemeselection position is a default position or a position specifiedaccording to user requirements; for example, a specific position mark isset on the display 102, and a grapheme at the position corresponding tothe mark is selected as the first grapheme. The sliding triggering unit632 slides the first graphemes sequence 314 by using the sliding speedof the first sliding input as an initial sliding speed so that thesliding of the first graphemes sequence 314 meets the user expectation.For example, the user may slide the first graphemes sequence 314 atdifferent sliding speeds according to the position of an expectedgrapheme in the first graphemes sequence 314, thus realizing the goal ofselecting a desired grapheme from the first graphemes sequence 314quickly. For example, when the expected grapheme is the last grapheme inthe first graphemes sequence 314, the user may slide the first graphemessequence at a higher speed; when the expected grapheme is a relativefront grapheme, the user may slide the first graphemes sequence 314 at alower speed in case that a high speed sliding causes the expectedgrapheme goes beyond the first grapheme selection position. When thefirst graphemes sequence stops sliding, the grapheme, which correspondsto the preset first grapheme selection position and is in the firstgraphemes sequence, is selected as the first grapheme. Alternatively, inthe present invention, the manner for selecting the first grapheme isnot limited to the above manner. In the above operation manner, after anoperator assigns an initial sliding speed for the first graphemessequence 314, the first graphemes sequence 314 may slide at the assignedinitial sliding speed. During the sliding process of the first graphemessequence 314, the user does not intervene the sliding of the firstgraphemes sequence 314. However, in some scenarios, the user needs toprecisely select the first grapheme by sliding the first graphemessequence 314. In this case, the first graphemes sequence 314 is selectedby using the touch screen for precise movement. During this process, thefirst graphemes sequence 314 may not be released. In this case, theprocessing apparatus 249 may acquire in real time an instant speed ofthe user's sliding input along the touch screen, and synchronously slidethe first graphemes sequence 314 according to the acquired instant speedof the sliding input.

Similarly, in the contact searching apparatus 600 provided in thisembodiment of the present invention,

the sliding sensing unit 622 is further configured to receive secondsliding input of the user on the display;

the sliding parameter obtaining unit 624 is further configured todetermine a sliding direction and sliding speed of the second slidinginput;

the sliding triggering unit 632 is further configured to slide thesecond graphemes sequence along the sliding direction of the secondsliding input by using the sliding speed of the second sliding input asan initial sliding speed; and

the grapheme selecting unit 634 is further configured to: when thesecond graphemes sequence stops sliding, select a grapheme, whichcorresponds to a preset second grapheme selection position and is in thesecond graphemes sequence, as the second grapheme.

Further, in the contact searching apparatus 600 provided in thisembodiment of the present invention, the displaying module 610 isfurther configured to highlight the first grapheme or highlight thesecond grapheme.

To make the user clearly acquire or identify the selected first graphemeand second grapheme, the displaying module 610 in the contact searchingapparatus 600 provided in this embodiment of the present invention isfurther configured to highlight the first grapheme or the secondgrapheme. Specifically, the first grapheme and the second grapheme arehighlighted by changing the display factors of the first grapheme andthe second grapheme, for example, changing display factors such as thecolor, size, shape, and illumination. In addition, this embodiment ofthe present invention also provides another manner for highlighting thefirst grapheme or the second grapheme. To be specific, the displayingmodule 610 is further configured to highlight the first grapheme at thefirst grapheme selection position or the displaying module 610 isfurther configured to highlight the first grapheme around the firstgrapheme selection position in a tip balloon way. Similarly, thedisplaying module 610 is further configured to highlight the secondgrapheme at the second grapheme selection position, or the displayingmodule 610 is configured to highlight the second grapheme around thesecond grapheme selection position in a tip balloon way.

Further, in the contact searching apparatus 600 provided in thisembodiment of the present invention, the displaying module 610 isfurther configured to: when highlighting the first grapheme,proportionally or exponentially scale down the unselected grapheme fromthe close to the distant according to a distance between each of theunselected graphemes except the selected first grapheme and the selectedfirst grapheme in the first graphemes sequence; and

the displaying module 610 is further configured to: when highlightingthe second grapheme, proportionally or exponentially scale down theunselected graphemes from the close to the distant according to adistance between each of the unselected graphemes except the selectedsecond grapheme and the selected second grapheme in the second graphemessequence.

In the contact searching apparatus 600 provided in this embodiment ofthe present invention, the displaying module 610 proportionally scalesdown the unselected graphemes in the first and second graphemessequences according to distances between the unselected graphemes in thefirst and second graphemes sequences and the corresponding selectedfirst and second graphemes so that the selected graphemes arehighlighted. Therefore, the user is capable of conveniently identifyingthe selected first and second graphemes, which improves the userexperience quality.

Further, referring to FIG. 6 b, in the contact searching apparatusprovided in this embodiment of the present invention, the processingmodule 630 further includes: a sliding damping unit 636, where thesliding damping unit 636 is configured to: when the sliding triggeringunit 632 slides the first graphemes sequence along the sliding directionof the first sliding input by using the sliding speed of the firstsliding input as an initial sliding speed, gradually reduce the slidingspeed of the first graphemes sequence in a constant damping way or anincreasing damping way. Or, the processing module 630 further includes:a sliding damping unit 636, where the sliding damping unit 636 isconfigured to: when the sliding triggering unit 632 slides the secondgraphemes sequence along the sliding direction of the second slidinginput by using the sliding speed of the second sliding input as aninitial sliding speed, gradually reduce the sliding speed of the secondgraphemes sequence in a constant damping way or an increasing dampingway.

According to this embodiment of the present invention, in the processingmodule 630, the sliding damping unit 636 enables the sliding firstgraphemes sequence and second graphemes sequence to stop after slidingfor a period of time so that the user may view the current slidingstatus of the first graphemes sequence or the second graphemes sequenceso as to improve the user experience quality.

Further, referring to FIG. 6 c, in the contact searching apparatus 600provided in this embodiment of the present invention, the processingmodule 630 further includes a speed comparing unit 638, where the speedcomparing unit 638 is configured to determine whether the sliding speedof the first graphemes sequence is higher than a preset speed threshold,and issue, when the sliding speed of the first grapheme is higher thanthe preset speed threshold, an instruction to instruct the displayingmodule 610 to suspend the highlighting of the grapheme, whichcorresponds to the first grapheme selection position and is in the firstgraphemes sequence; or the processing module 630 further includes aspeed comparing unit 638, where the speed comparing unit 638 isconfigured to determine whether the sliding speed of the secondgraphemes sequence is higher than a preset speed threshold, and issue,when the sliding speed of the second grapheme is higher than the presetspeed threshold, an instruction to instruct the displaying module 610 tosuspend the highlighting of the grapheme, which corresponds to thesecond grapheme selection position and is in the second graphemessequence.

In the contact searching apparatus 600 provided in this embodiment ofthe present invention, the displaying module 610 determines, bycomparing the first graphemes sequence or the second graphemes sequencewith a preset speed threshold, whether to highlight the first graphemeor the second grapheme, that is, highlighting the grapheme, whichcorresponds to the first grapheme selection position and is in the firstgraphemes sequence, or the grapheme, which corresponds to the secondgrapheme selection position and is in the second graphemes sequence.When the sliding speed is higher than the preset speed threshold, itindicates that a user's expected first grapheme or second grapheme isfar from the first grapheme selection position or the second graphemeselection position. In this case, it is not necessary to highlight eachgrapheme passing through the first grapheme selection position or thesecond grapheme selection position, which therefore reduces theprocessing load of the processor or the display, saves the processingresources, improves the processing efficiency, and enhances the userexperience.

Further, in the contact searching apparatus 600 provided in thisembodiment of the present invention, the first graphemes sequence isdisplayed at a first display position on the display and the secondgraphemes sequence is display at a second display position on thedisplay; where the first display position and the second displayposition overlap; when the first graphemes sequence is displayed, thesecond graphemes sequence is hidden; and when the second graphemessequence is displayed, the first graphemes sequence is hidden.Specifically, the displaying module 610 displays the first graphemessequence at the first display position on the display and displays thesecond graphemes sequence at the second display position on the display,where the first display position and the second display positionoverlay. During implementation, the first graphemes sequence and thesecond graphemes sequence are not displayed simultaneously. That is,when the first graphemes sequence is displayed, the second graphemessequence is hidden; and when the second graphemes sequence is displayed,the first graphemes sequence is hidden. More specifically, when thecontact searching apparatus provided in this embodiment of the presentinvention is used, the first graphemes sequence is displayed at thefirst display position at first by default. When receiving the secondinput of the user, the inputting module 620 issues an instruction to thedisplaying module 610 to instruct the displaying module 610 to hide thefirst graphemes sequence and display the second graphemes sequence atthe second display position. The displaying the second graphemessequence at the second display position specifically includes: when theselecting module 620 receives the second input of the user, hiding, bythe displaying module 610, the first graphemes sequence, and displayingthe second graphemes sequence at the second display position overlappingthe first display position.

In the technical solution provided in this embodiment of the presentinvention, the first graphemes sequence and the second graphemessequence are displayed at the first display position and the seconddisplay position that overlap each other, so as to save display space.In addition, display conversion between the first graphemes sequence andthe second graphemes sequence is started when the user inputs the secondinput so that the interaction interface generated on the mobile terminalis simple, thus improving display efficiency and enhancing the userexperience quality.

Further, in the contact searching apparatus 600 provided in thisembodiment of the present invention, the first graphemes sequence isdisplayed at a first display position on the display and the secondgraphemes sequence is displayed at a second display position on thedisplay; where the first display position and the second displayposition do not overlap. Specifically, the displaying module 610displays the first graphemes sequence at the first display position onthe display and displays the second graphemes sequence at the seconddisplay position on the display. The first display position and thesecond display position do not overlap. That is, the first graphemessequence and the second graphemes sequence are displayed at differentpositions on the display respectively. To make the user clearlydifferentiate the first graphemes sequence from the second graphemessequence, the first graphemes sequence and the second graphemes sequencemay be arranged along two vertical dimensions, and the arrangementdirection of the first graphemes sequence is vertical to, or forms a 90°angle with, the arrangement direction of the second graphemes sequence.It may be understood that a sufficient distance between the firstgraphemes sequence and the second graphemes sequence also enables theuser to differentiate the two graphemes sequences. For example, thefirst graphemes sequence is displayed at the top of the display, and thesecond graphemes sequence is displayed at the bottom of the display; orthe first graphemes sequence is displayed on the left side of thedisplay, and the second graphemes sequence is displayed on the rightside of the display. In addition, to ensure that the positions of thefirst graphemes sequence and the second graphemes sequence satisfy userpreferences, the first graphemes sequence and the second graphemessequence may be customized according to user preferences. To bespecific, the display positions of the first graphemes sequence and thesecond graphemes sequence may be changed, or the first graphemessequence and the second element sequence may be set at differentpositions on the display according to user requirements.

To enable the user to quickly learn the method of using the contactsearching apparatus provided in this embodiment of the presentinvention, the displaying module 610, by displaying the first graphemessequence and the second graphemes sequence at different positions on thedisplay, teaches or instructs the user, in a vivid presentation way, toquickly select the corresponding grapheme by using the displayed firstgraphemes sequence and second graphemes sequence in order to quicklysearch out a target contact. In this manner, the complexity of learningthe contact searching operations is reduced and the user experiencequality is improved.

Further, in the contact searching apparatus 600 provided in thisembodiment of the present invention, the first graphemes sequenceincludes only the first grapheme in the graphemes forming the first unitcharacter of a recorded contact label, where the same first graphemeappears only once in the first graphemes sequence; the second graphemessequence includes only the first grapheme in the graphemes forming thesecond unit character of the recorded contact label, where the samesecond grapheme appears only once in the second graphemes sequence; orthe second graphemes sequence includes only the first grapheme in thegraphemes forming the second unit character of a contact label havingthe first grapheme, where the same first grapheme appears only once inthe second graphemes sequence.

In the contact searching apparatus provided in this embodiment of thepresent invention, the first graphemes sequence and the second graphemessequence include only the first graphemes in the graphemes forming thefirst unit character of the recorded contact label, where the same firstgrapheme appears only once in the first graphemes sequence and thesecond graphemes sequence. That is, the first graphemes sequence and thesecond graphemes sequence are generated according to the contact labelsin the contact information stored in the memory 250. Therefore, thefirst graphemes sequence and the second graphemes sequence do notinclude extra graphemes, that is, do not include unrecorded firstgraphemes. The first grapheme refers to the first grapheme in theelements forming the first unit character of the contact label. In thismanner, the first graphemes sequence appears simple and occupies fewerresources, thereby improving user experience. Alternatively, to improvethe search efficiency, the second graphemes sequence includes only thefirst grapheme in the graphemes forming the second unit character of thecontact label having the first grapheme, where the same second graphemeappears only once in the second graphemes sequence. This solution isdirected to allowing the user, when using the mobile terminal 100provided in this embodiment of the present invention to search for acontact, to obtain, through filtering, a contact label having the firstgrapheme according to the grapheme selected by the first input. In thiscase, the second graphemes sequence may include only the first graphemein the graphemes forming the second unit character of the contact labelincluding the first grapheme. In other words, the second graphemessequence is selected from the graphemes included in a contact labelsubset defined by the first grapheme selected by the first input. Thismay further narrow down a search scope for selecting the secondgrapheme, improves the search speed, reduces the load and resources ofthe processor, and enhances the user experience quality.

Further, in the contact searching apparatus 600 provided in thisembodiment of the present invention, the displaying module 610 isconfigured to display the contact label matched with the first graphemeand the second grapheme on the display. The displaying module 610 loadsthe contact label matched with the first grapheme and the secondgrapheme and contact information that corresponds to the contact labelmatched with the first grapheme and the second grapheme to a presetcontact information presentation template, and displays the contactinformation presentation template loaded with the contact label matchedwith the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme.

Specifically, the displaying, by the displaying module 610, the contactinformation presentation template loaded with the contact label matchedwith the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme includes:

the displaying module 610 displays, in a staggered overlay way, thecontact information presentation template loaded with the contact labelmatched with the first grapheme and the second grapheme and the contactinformation that corresponds to the contact label matched with the firstgrapheme and the second grapheme; or

the displaying module 610 displays, in a ring or fan arrangement way,the contact information presentation template loaded with the contactlabel matched with the first grapheme and the second grapheme and thecontact information that corresponds to the contact label matched withthe first grapheme and the second grapheme; or

the displaying module 610 displays, in a way of different sizes anddepths, the contact information presentation template loaded with thecontact label matched with the first grapheme and the second graphemeand the contact information that corresponds to the contact labelmatched with the first grapheme and the second grapheme, where the frontcontact information presentation template is displayed in a way of amaximum size and full definition while other contact informationpresentation templates are displayed in a gradual fading way accordingto the depths.

In the contact searching apparatus 600, the displaying module 610 loadsthe contact information, which is searched out and corresponds to thecontact label matched with the first grapheme and the second grapheme,to a preset contact information presentation template, and displays thecontact information presentation template on the display. The presentedcontact sequence is more customized by using the preset presentationtemplate to bear the contact information that is searched out,satisfying customized user requirements and providing the userexperience quality.

Persons skilled in the art may understand that all or part of the stepsof the methods according to the embodiments of the present invention maybe implemented by hardware following instructions of programs. Theprogram may be stored in a computer readable storage medium, in whichthe program, when being executed, performs the process of each method ofthe embodiments. The storage medium may be, for example, a magneticdisk, a CD-ROM, a read-only memory (Read-Only Memory, ROM) or a randomaccess memory (Random Access Memory, RAM).

Specifically, an embodiment of the present invention provides a readablestorage medium. The readable storage medium stores an executableinstruction, and when being read by a computer unit, the executableinstruction is capable of performing the contact searching methodprovided in the embodiment of the present invention. The contactsearching method includes:

receiving first input of a user;

selecting a first grapheme from a first graphemes sequence according tothe first input, the first graphemes sequence being displayed on adisplay; where the first graphemes sequence is associated with aninitial unit of characters in multiple contact labels;

receiving second input of the user;

selecting a second grapheme from a second graphemes sequence accordingto the second input, the second graphemes sequence being displayed onthe display, and the second graphemes sequence being associated with asecondary unit of characters in the multiple contact labels; where eachof the contact labels includes at least two units of characters, and aunit character is formed or represented by at least one grapheme; and

searching for and displaying a contact label on the display, wherecontact label is matched with the first grapheme and the secondgrapheme.

Further, in the contact searching method that is executed by theexecutable instructions stored in the readable storage medium, thecontact label matched with the first grapheme and the second graphemespecifically refers to that the first grapheme is the first grapheme inthe graphemes forming or representing the first unit character of eachof the contact labels, the second grapheme is the first grapheme in thegraphemes forming or representing the second unit character of each ofthe contact labels, and the second unit character follows the first unitcharacter.

Further, in the contact searching method that is executed by theexecutable instructions stored in the readable storage medium, the unitcharacter is a Chinese character, and correspondingly, the grapheme isthe first letter in Pinyin letters corresponding to the Chinesecharacter; or the unit character is a word, and correspondingly, thegrapheme is the first letter in letters forming the word; or the unitcharacter is a Chinese character, and correspondingly, the grapheme isthe first stroke in strokes forming the Chinese character.

Further, in the contact searching method that is executed by theexecutable instruction stored in the readable storage medium, thereceiving first input of a user further includes:

receiving first sliding input of the user on the display, anddetermining a sliding direction and sliding speed of the first slidinginput; and

correspondingly, the selecting a first grapheme from a first graphemessequence according to the first input includes:

when the first graphemes sequence stops sliding, selecting a grapheme,which corresponds to a preset first grapheme selection position and isin the first graphemes sequence, as the first grapheme.

Further, in the contact searching method that is executed by theexecutable instruction stored in the readable storage medium, thereceiving second input of the user further includes:

receiving second sliding input of the user on the display, anddetermining a sliding direction and sliding speed of the second slidinginput; and

correspondingly, the selecting a second grapheme from a second graphemessequence according to the second input includes:

when the second graphemes sequence stops sliding, sliding the secondgraphemes sequence along the sliding direction of the second slidinginput by using the sliding speed of the second sliding input as aninitial sliding speed; and

selecting a grapheme, which corresponds to a preset second graphemeselection position and is in the second graphemes sequence, as thesecond grapheme.

Further, the contact searching method that is performed by theexecutable instruction stored in the readable storage medium includes:highlighting the first grapheme or highlight the second grapheme.

Further, in the contact searching method that is executed by theexecutable instruction stored in the readable storage medium, thehighlighting the first grapheme specifically includes:

highlighting the first grapheme at the first grapheme selectionposition, or highlighting the first grapheme around the first graphemeselection position in a tip balloon way; and

the highlighting the second grapheme specifically includes:

highlighting the second grapheme at the second grapheme selectionposition, or highlighting the second grapheme around the second graphemeselection position in a tip balloon way.

Further, the contact searching method that is executed by the executableinstruction stored in the readable storage medium includes: whenhighlighting the first grapheme, proportionally or exponentially scalingdown the unselected graphemes from the close to the distant according toa distance between each of the unselected graphemes except the selectedfirst grapheme and the selected first grapheme in the first graphemessequence; and

when highlighting the second grapheme, proportionally or exponentiallyscaling down the unselected graphemes from the close to the distantaccording to a distance between each of the unselected graphemes exceptthe selected second grapheme and the selected second grapheme in thesecond graphemes sequence; and

Further, the contact searching method that is executed by the executableinstruction stored in the readable storage medium, when the firstgraphemes sequence is slid along the sliding direction of the firstsliding input by using the sliding speed of the first sliding input asan initial sliding speed, further includes: gradually reducing thesliding speed of the first graphemes sequence in a constant damping wayor an increasing damping way.

Further, the contact searching method that is executed by the executableinstruction stored in the readable storage medium further includes:

determining whether the sliding speed of the first graphemes sequence ishigher than a preset speed threshold; and

when the sliding speed of the first grapheme is higher than the presetspeed threshold, suspending the highlighting of the grapheme, whichcorresponds to the first grapheme selection position and is in the firstgraphemes sequence.

Further, the contact searching method that is executed by the executableinstruction stored in the readable storage medium, when the secondgraphemes sequence is slid along the sliding direction of the secondsliding input by using the sliding speed of the second sliding input asan initial sliding speed, further includes: gradually reducing thesliding speed of the second graphemes sequence in a constant damping wayor an increasing damping way.

Further, the contact searching method that is executed by the executableinstruction stored in the readable storage medium further includes:

determining whether the sliding speed of the second graphemes sequenceis higher than a preset speed threshold; and

when the sliding speed of the second grapheme is higher than the presetspeed threshold, suspending the highlighting of the grapheme, whichcorresponds to the second grapheme selection position and is in thesecond graphemes sequence.

Further, in the contact searching method that is executed by theexecutable instruction stored in the readable storage medium, the firstgraphemes sequence is displayed at a first display position on thedisplay and the second graphemes sequence is display at a second displayposition on the display; where the first display position and the seconddisplay position overlap; when the first graphemes sequence isdisplayed, the second graphemes sequence is hidden; and when the secondgraphemes sequence is displayed, the first graphemes sequence is hidden.

Further, in the contact searching method that is executed by theexecutable instruction stored in the readable storage medium, the firstgraphemes sequence is displayed at a first display position on thedisplay and the second graphemes sequence is displayed at a seconddisplay position on the display; where the first display position andthe second display position do not overlap.

Further, in the contact searching method that is executed by theexecutable instructions stored in the readable storage medium, the firstgraphemes sequence includes only the first grapheme in the graphemesforming the first unit character of a recorded contact label, where thesame first grapheme appears only once in the first graphemes sequence;the second graphemes sequence includes only the first grapheme in thegraphemes forming the second unit character of the recorded contactlabel, where the same second grapheme appears only once in the secondgraphemes sequence; or the second graphemes sequence includes only thefirst grapheme in the graphemes forming the second unit character of acontact label having the first grapheme, where the same first graphemeappears only once in the second graphemes sequence.

Finally, it should be noted that the above embodiments are merelyprovided for describing the technical solutions of the presentinvention, but not intended to limit the present invention.

What is claimed is:
 1. A method of facilitating combinational searchingin a mobile terminal for a contact label, the method comprising:performing a listing of a first sequence of graphemes on a display ofthe mobile terminal; receiving a first input; performing a selection ofa first grapheme from the first sequence of graphemes in response to thefirst input, the first sequence of graphemes being associated with afirst unit of characters relating to a plurality of contact labels, eachof the contact labels comprising at least two characters, and each ofthe at least two characters being represented by at least one grapheme;performing, on the display of the mobile terminal, a first display of afirst set of contact labels being searched within the plurality ofcontact labels, if each of the first set of contact labels comprising agrapheme matching the first grapheme; performing a listing of a secondsequence of graphemes on the display, wherein the listing of a secondsequence of graphemes is selected from the graphemes included in acontact label subset defined by the first grapheme selected by the firstinput; receiving a second input; performing a selection of a secondgrapheme from the second sequence of graphemes in response to the secondinput, the second sequence of graphemes being associated with a secondunit of characters relating to the plurality of contact labels; andperforming, on the display of the mobile terminal, an updated display ofthe first display, the updated display relating to a second set ofcontact labels being searched within the first set of contact labels, ifeach of the second set of contact labels comprising a grapheme matchingthe second grapheme.
 2. The method according to claim 1, wherein thegrapheme matching the first grapheme is in a first character in each ofthe first set of contact labels, and the grapheme matching the secondgrapheme is in a second character in each of the second set of contactlabels.
 3. The method according to claim 1, wherein each of the at leasttwo characters is: a Chinese character represented by a grapheme beingthe first stroke in strokes forming the Chinese character.
 4. The methodaccording to claim 1, further comprising: determining a slidingdirection and a sliding speed in response to the first input, theselection of the first grapheme corresponding to the sliding directionand the sliding speed.
 5. The method according to claim 1, furthercomprising: determining a sliding direction and a sliding speed inresponse to the second input, the selection of the second graphemecorresponding to the sliding direction and the sliding speed.
 6. Themethod according to claim 4, wherein the first grapheme is selected bysliding the first sequence of graphemes along the sliding directionusing the sliding speed as an initial sliding speed, and graduallyreducing the sliding speed of the first sequence of graphemes.
 7. Themethod according to claim 6, further comprising: when the sliding speedis lower than a preset speed threshold, highlighting the first graphemein the first sequence of graphemes.
 8. The method according to claim 5,wherein the second grapheme is selected by sliding the second sequenceof graphemes along the sliding direction using the sliding speed as aninitial sliding speed, and gradually reducing the sliding speed of thesecond sequence of graphemes.
 9. The method according to claim 8,further comprising: when the sliding speed is lower than a preset speedthreshold, highlighting the second grapheme in the second sequence ofgraphemes.
 10. The method according to claim 1, wherein at least part ofthe first position overlapping with at least part of the secondposition, and the second sequence of graphemes is hidden when the firstsequence of graphemes is listed.
 11. The method according to claim 1,wherein the first sequence of graphemes is listed at a first position ofthe display and the second sequence of graphemes is listed at a secondposition of the display, and the first position does not overlap withthe second position.
 12. The method according to claim 1, wherein thefirst sequence of graphemes comprises distinct graphemes; and the secondsequence of graphemes comprises distinct graphemes.
 13. The methodaccording to claim 1, wherein the first display is performed by loadingcontact information of the first set of contact labels to a presetpresentation template.
 14. The method according to claim 13, wherein thepresentation template is arranged in one of the following ways: astaggered overlay way, a ring or a fan arrangement way, and a frontcontact information is displayed in a way of a maximum size and fulldefinition while other contact information is displayed in a gradualfading way.
 15. A mobile terminal, comprising a memory, a display, and aprocessing apparatus, wherein the memory is configured to store aplurality of contact labels, each of the contact labels comprising atleast two characters, and each of the at least two characters beingrepresented by at least one grapheme; the display is configured toperform a listing of a first sequence of graphemes on the display; theprocessing apparatus is configured to: receive a first input; andperform a selection of a first grapheme from the first sequence ofgraphemes in response to the first input, the first sequence ofgraphemes being associated with a first unit of characters relating tothe plurality of contact labels; the display is further configured to:perform a first display of a first set of contact labels being searchedwithin the plurality of contact labels, if each of the first set ofcontact labels comprising a grapheme matching the first grapheme;perform a listing of a second sequence of graphemes on the display,wherein the listing of a second sequence of graphemes is selected fromthe graphemes included in a contact label subset defined by the firstgrapheme selected by the first input; the processing apparatus isfurther configured to: receive a second input; perform a selection of asecond grapheme from the second sequence of graphemes in response to thesecond input, the second sequence of graphemes being associated with asecond unit of characters relating to the plurality of contact labels;and the display is further configured to: perform an updated display ofthe first display, the updated display relating to a second set ofcontact labels being searched within the first set of contact labels, ifeach of the second set of contact labels comprising a grapheme matchingthe second grapheme.
 16. The mobile terminal according to claim 15,wherein the grapheme matching the first grapheme is in a first characterin each of the first set of contact labels, and the grapheme matchingthe second grapheme is in a second character in each of the second setof contact labels.
 17. The mobile terminal according to claim 15,wherein each of the at least two characters is: a Chinese characterrepresented by a grapheme being the first stroke in strokes forming theChinese character.
 18. The mobile terminal according to claim 15,wherein the processing apparatus is further configured to determine asliding direction and a sliding speed in response to the first input,the selection of the first grapheme corresponding to the slidingdirection and the sliding speed.
 19. The mobile terminal according toclaim 15, wherein the processing apparatus is further configured todetermine a sliding direction and a sliding speed in response to thesecond input, the selection of the second grapheme corresponding to thesliding direction and the sliding speed.
 20. The mobile terminalaccording to claim 18, wherein the first grapheme is selected by slidingthe first sequence of graphemes along the sliding direction using thesliding speed as an initial sliding speed, and gradually reducing thesliding speed of the first sequence of graphemes.
 21. The mobileterminal according to claim 20, wherein when the sliding speed is lowerthan a preset speed threshold, the display is further configured tohighlight the first grapheme in the first sequence of graphemes.
 22. Themobile terminal according to claim 18, wherein the second grapheme isselected by sliding the second sequence of graphemes along the slidingdirection using the sliding speed as an initial sliding speed, andgradually reducing the sliding speed of the second sequence ofgraphemes.
 23. The mobile terminal according to claim 22, wherein whenthe sliding speed is lower than a preset speed threshold, the display isfurther configured to highlight the second grapheme in the secondsequence of graphemes.
 24. The mobile terminal according to claim 15,wherein the second sequence of graphemes is hidden when the firstsequence of graphemes is listed.
 25. The mobile terminal according toclaim 15, wherein the first sequence of graphemes is listed at a firstposition of the display and the second sequence of graphemes is listedat a second position of the display, and the first position does notoverlap with the second position.
 26. The mobile terminal according toclaim 15, wherein the first sequence of graphemes comprises distinctgraphemes; and the second sequence of graphemes comprises distinctgraphemes.
 27. The mobile terminal according to claim 15, wherein thefirst display is performed by loading contact information of the firstset of contact labels to a preset presentation template.
 28. The mobileterminal according to claim 27, wherein the presentation template isarranged in one of the following ways: a staggered overlay way, a ringor a fan arrangement way, and a front contact information is displayedin a way of a maximum size and full definition while other contactinformation is displayed in a gradual fading way.
 29. The mobileterminal according to claim 15, wherein the processing apparatuscomprises a processor, a screen controller, an input controller, aninput control device, the processor is connected to the memory, thescreen controller is connected to the processor and the display, and theinput controller is connected to the processor and the input controldevice.
 30. A non-transitory computer readable storage medium, thereadable storage medium storing an executable instruction, when theexecutable instruction being read by a processor, the processor beingcapable of providing instructions to perform following steps: performinga listing of a first sequence of graphemes on a display; receiving afirst input; performing a selection of a first grapheme from the firstsequence of graphemes in response to the first input, the first sequenceof graphemes being associated with a first unit of characters relatingto a plurality of contact labels, each of the contact labels comprisingat least two characters, and each of the at least two characters beingrepresented by at least one grapheme; performing a first display of afirst set of contact labels being searched within the plurality ofcontact labels, if each of the first set of contact labels comprising agrapheme matching the first grapheme; performing a listing of a secondsequence of graphemes on the display, wherein, wherein the listing of asecond sequence of graphemesis selected from the graphemes included in acontact label subset defined by the first grapheme selected by the firstinput; receiving a second input; performing a selection of a secondgrapheme from the second sequence of graphemes in response to the secondinput, the second sequence of graphemes being associated with a secondunit of characters relating to the plurality of contact labels; andperforming an updated display of the first display, the updated displayrelating to a second set of contact labels being searched within thefirst set of contact labels, if each of the second set of contact labelscomprising a grapheme matching the second grapheme.